CN110609825B - Power system graphic data visualization processing method and device - Google Patents

Abstract

The invention provides a method and a device for visualizing graphical data of a power system. The method comprises the steps of obtaining a plurality of static data of each power device in the power system; determining the data type of each acquired static data; for each static data: selecting a data display 3D model matched with the data type of the static data from a plurality of preset data display 3D models; setting model parameters of the data display 3D model according to the model parameters of the 3D model of each power device; each data was presented to a 3D model display. According to the invention, the static data is integrated in one view for display, so that the static data is more visual and clear.

Description

Power system graphic data visualization processing method and device

Technical Field

The invention relates to the field of data processing of power systems, in particular to a method and a device for visualizing graphical data of a power system.

Background

The power communication network is developed to ensure safe and stable operation of the power system. The system is combined with a relay protection and safety and stability control system and a dispatching automation system of a power system to be called as three major pillars for safe and stable operation of the power system. The basis of power grid dispatching automation, network operation marketization and management modernization is provided; is an important means for ensuring the safe, stable and economic operation of the power grid; is an important infrastructure of power systems. Due to the strict requirements of the power communication network on the reliability of communication, the rapidity and accuracy of transmission of protection control information, the power communication network also faces a systematic challenge in terms of daily operation management.

The power communication network is a heterogeneous mixed network which consists of multiple technical systems (optical transmission, data, wireless, telephone traffic, clock and the like), is managed and controlled by multiple terminals (public network, private network, general dispatching, provincial dispatching, local dispatching and the like), is loaded by multiple services (power grid operation control services, power grid production management services, enterprise management services and the like), and is used by multiple users, and the whole life cycle processes of planning, designing, constructing, operating, maintaining, quitting the network and the like of the power communication network need to be assisted by a series of tools.

For a long time, due to the limitation of system implementation technology and operation and maintenance management concepts, the system construction for supporting the operation and maintenance management of the power communication network basically centers on professional functions, so that a large number of sub-professional operation and maintenance management systems, sub-functional operation and maintenance management systems and sub-management domain operation and maintenance management systems are generated, a large number of operation and maintenance data islands are generated, a large number of operation and maintenance personnel are required to be configured for using the systems, and the comprehensive benefit of a large number of scattered operation and maintenance data is severely restricted from being exerted. Meanwhile, static data of each power device and building in the power system cannot be integrated together for display.

Disclosure of Invention

In view of the above, the present invention provides a method and an apparatus for visualizing and processing graphical data of an electrical power system. The invention aims to integrate the static data of each power device and building in the power system into one view for showing.

In order to achieve the above object, the present invention provides the following technical solutions:

the invention discloses a visual processing method of graphic data of a power system in a first aspect, which comprises the following steps:

acquiring a plurality of static data of each power device in a power system;

determining the data type of each obtained static data;

for each static datum: selecting a data display 3D model matched with the data type of the static data from a plurality of preset data display 3D models;

setting model parameters of the data display 3D model according to the model parameters of the 3D model of each power device;

each of the data is presented for display as a 3D model.

Optionally, the data types of the static data at least include:

the method comprises the following steps of measuring the size of the electric equipment, the longitude and latitude of the electric equipment, the altitude of the electric equipment, the model of the electric equipment, the color of the electric equipment, the equipment attribute of the electric equipment and the connection relationship among the electric equipment, wherein the equipment attribute of the electric equipment comprises the following steps: the device comprises a main device and a standby device.

Optionally, the model parameters include: the model color setting the model parameters of the data presentation 3D model according to the model parameters of the 3D model of each power device includes:

setting a model color of the data presentation 3D model to a color having a preset contrast with a model color of a 3D model of the power device;

or,

setting the model color of the data presentation 3D model to be a color of the same color system as the model color of the 3D model of the power equipment.

Optionally, the model parameters include: a model size, wherein the setting of the model parameters of the data presentation 3D model according to the model parameters of the 3D model of each power device includes:

setting a model size of the data presentation 3D model to a size having a preset ratio to a model size of the 3D model of the power equipment.

Optionally, the model parameters include: the model position setting the model parameters of the data presentation 3D model according to the model parameters of the 3D model of each power device includes:

setting the model position of the data presentation 3D model as a position where the distance from the model position of the 3D model of the power equipment is less than a preset distance.

Optionally, the method further includes:

acquiring a plurality of static data of each electric power building in an electric power system;

determining the data type of each obtained static data;

for each static data: selecting a data display 3D model matched with the data type of the static data from a plurality of preset data display 3D models;

according to model parameters of the 3D model of each power building, setting model parameters of the data display 3D model;

each of the data is presented for display as a 3D model.

The invention discloses a visualization processing device for graphic data of a power system, which comprises: a first obtaining unit, a first determining unit, a first matching unit, a first setting unit and a first display unit,

the first acquisition unit is used for acquiring a plurality of static data of each electric power device in the electric power system;

the first determining unit is configured to determine a data type of each acquired static data;

the first matching unit is configured to, for each static data: selecting a data display 3D model matched with the data type of the static data from a plurality of preset data display 3D models;

the first setting unit is used for setting the model parameters of the data display 3D model according to the model parameters of the 3D model of each power device;

the first display unit is used for displaying each data display 3D model.

Optionally, the data types of the static data at least include:

the method comprises the following steps of measuring the size of the electric equipment, the longitude and latitude of the electric equipment, the altitude of the electric equipment, the model of the electric equipment, the color of the electric equipment, the equipment attribute of the electric equipment and the connection relationship among the electric equipment, wherein the equipment attribute of the electric equipment comprises the following steps: the device comprises a main device and a standby device.

Optionally, the model parameters include: a model color, the first setting unit including: a color-setting sub-unit for setting a color,

the color setting subunit is configured to set a model color of the data presentation 3D model to a color having a preset contrast with a model color of the 3D model of the power device;

or,

and the model color used for setting the data display 3D model to be the color of the same color system as the model color of the 3D model of the power equipment.

Optionally, the model parameters include: a model size, the first setting unit including: a size-setting sub-unit for setting the size of the display unit,

the size setting subunit is configured to set a model size of the data display 3D model to a size having a preset proportion to a model size of the 3D model of the power equipment.

Optionally, the model parameters include: a model position, the first setting unit including: a position setting sub-unit for setting the position of the mobile phone,

the position setting subunit is configured to set the model position of the data display 3D model to a position where a distance from the model position of the 3D model of the power device is smaller than a preset distance.

Optionally, the apparatus further includes: a second acquisition unit, a second determination unit, a second matching unit, a second setting unit, and a second display unit,

the second acquisition unit is used for acquiring a plurality of static data of each electric power building in the electric power system;

the second determining unit is configured to determine a data type of each acquired static data;

the second matching unit is configured to, for each static data: selecting a data display 3D model matched with the data type of the static data from a plurality of preset data display 3D models;

the second setting unit is used for setting the model parameters of the data display 3D model according to the model parameters of the 3D model of each power building;

and the second display unit is used for displaying each data display 3D model.

The invention provides a method and a device for visualizing graphical data of a power system. The method comprises the steps of obtaining a plurality of static data of each power device in the power system; determining the data type of each obtained static data; for each static datum: selecting a data display 3D model matched with the data type of the static data from a plurality of preset data display 3D models; setting model parameters of the data display 3D model according to the model parameters of the 3D model of each power device; each data was presented to a 3D model display. According to the invention, the static data is integrated in one view for display, so that the static data is more visual and clear.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the embodiments or the prior art descriptions will be briefly described below.

Fig. 1 is a schematic flowchart of a method for processing graphical data visualization of an electrical power system according to an embodiment of the present invention;

fig. 2 is a schematic flow chart of a method for processing graphical data visualization of an electric power building according to an embodiment of the present invention;

fig. 3 is a schematic structural diagram of a power system graphic data visualization processing apparatus according to an embodiment of the present invention.

Detailed Description

The invention discloses a method and a device for visualizing graphical data of a power system, which can be realized by appropriately improving process parameters by referring to the contents in the text by a person skilled in the art. It is specifically noted that all such substitutions and modifications will be apparent to those skilled in the art and are intended to be included herein. While the methods and applications of this invention have been described in terms of preferred embodiments, it will be apparent to those of ordinary skill in the art that variations and modifications in the methods and applications described herein, as well as other suitable variations and combinations, may be made to implement and use the techniques of this invention without departing from the spirit and scope of the invention.

The visualization technology and the theoretical development become more and more a necessary trend in the last 10 years, the introduction of the visualization method is a topic with great potential for solving the operation and maintenance management of power grid communication, in the past, people understand the visualization into various charts, the real visualization is to restore the theory and technology of abstract complex reality, the visualization method can establish data integration taking an operation and maintenance scene as the center for changing the informatization construction mode of the operation and maintenance management system which is specially split, and the existing tools can realize integration and value increment on the basis of not damaging the construction investment of the original tools, so that the operation and maintenance visualization level is improved, the technical threshold of operation and maintenance is reduced, and the operation efficiency is improved on the basis of effectively utilizing the data generated by the construction and application of various systems in the past.

The visualization technology is applied to the display of the static data of each power device and each building in the power system, and each static data can be effectively integrated into one view and displayed. The method can help the operation and maintenance personnel of the power system to more intuitively and conveniently check the detailed information of each power device and building in the power system.

As shown in fig. 1, a schematic flow diagram of a method for processing graphical data visualization of an electric power system according to an embodiment of the present invention includes:

step S101: a plurality of static data of each power device in the power system are obtained.

The static data is a value that does not change for a long time, such as the size of the object, the color of the object, and the like, and is not easy to change along with the change of time.

Optionally, a plurality of static data of each power device in the power system is acquired in an acquisition manner.

It should be noted that the acquisition mode may include: the method comprises the steps of shooting a picture of the electric power equipment, measuring the size of the electric power equipment, determining the longitude and latitude and the altitude of the electric power equipment according to GIS (geographic information system) data, recording the model of the electric power equipment and the like.

Step S102: and determining the data type of each acquired static data.

It should be noted that the data types of the static data at least include: the method comprises the following steps of measuring the size of the electric equipment, the longitude and latitude of the electric equipment, the altitude of the electric equipment, the model of the electric equipment, the color of the electric equipment, the equipment attribute of the electric equipment and the connection relationship among the electric equipment, wherein the equipment attribute of the electric equipment comprises the following steps: the device comprises a main device and a standby device.

Step S103: for each static datum: and selecting a data presentation 3D model matched with the data type of the static data from a plurality of preset data presentation 3D models.

It should be noted that the preset data display 3D models are 3D models formed by importing views and performing 3D modeling and 3D rendering on the views.

Step S104: and setting model parameters of the data display 3D model according to the model parameters of the 3D model of each power device.

Optionally, in a specific embodiment, the model parameters include: the model color, according to the model parameter of the 3D model of each power equipment, sets up the model parameter that data show 3D model, includes:

setting a model color of the data presentation 3D model to a color having a preset contrast with a model color of the 3D model of the power equipment;

the contrast of the color can highlight important data to be displayed.

Or,

setting the model color of the data display 3D model as the color of the same color system as the model color of the 3D model of the power equipment;

wherein, the colors of the same color system can enable the data display 3D model and the 3D model of the power equipment to be paired into a set.

Optionally, in a specific embodiment, the model parameters include: the model size, according to the model parameter of the 3D model of each power equipment, sets up the model parameter that data show 3D model, includes:

setting the model size of the data display 3D model to be a size with a preset proportion to the model size of the 3D model of the power equipment;

the preset proportion is used for preventing the data display 3D model from being too large or too small relative to the 3D model of the power equipment, so that the display is not clear and attractive.

Optionally, in a specific embodiment, the model parameters include: the model position, according to the model parameter of the 3D model of each power equipment, sets up the model parameter that data show 3D model, includes:

setting the model position of the data display 3D model as a position where the distance from the model position of the 3D model of the power equipment is smaller than a preset distance;

in order to make the person data presentation 3D model be data of the 3D model of the corresponding power device, the model position of the data presentation 3D model is set to be close to the model position, and cannot be separated too far.

Optionally, in a specific embodiment, the setting of the model parameters of the data display 3D model according to the model parameters of the 3D model of each power device may further include: the setup data demonstrates the transparency of the 3D model.

Step S105: each data was presented to a 3D model display.

The data presentation 3D model may be displayed on a PC (personal computer), may be displayed by holographic projection, or the like.

The power system graphic data visualization processing method can acquire a plurality of static data of each power device in the power system; determining the data type of each obtained static data; for each static datum: selecting a data display 3D model matched with the data type of the static data from a plurality of preset data display 3D models; setting model parameters of the data display 3D model according to the model parameters of the 3D model of each power device; each data was presented to a 3D model display. According to the visualization processing method for the graphic data of the power system, the static data of the power equipment is integrated in one view for display, so that the static data of the power equipment is more visual and clear.

As shown in fig. 2, the method for visualizing and processing graphical data of a power system further includes:

step S201: a plurality of static data of each power building in the power system is acquired.

Optionally, a plurality of static data of each power building in the power system are acquired in an acquisition manner.

It should be noted that the acquisition mode may include: the method comprises the steps of shooting electric power building pictures, measuring the sizes of the electric power buildings, and determining the longitude, the latitude, the altitude and the like of the electric power buildings according to GIS (geographic information system) data.

Step S202: and determining the data type of each acquired static data.

It should be noted that the data types of the static data at least include: the size of the electric power building, the longitude and latitude of the electric power building, the altitude of the electric power building, the model of the electric power building and the color of the electric power building.

Step S203: for each static datum: and selecting a data presentation 3D model matched with the data type of the static data from a plurality of preset data presentation 3D models.

Step S204: and setting model parameters of the data display 3D model according to the model parameters of the 3D model of each power building.

Step S205: each data was presented to a 3D model display.

Alternatively, fig. 1 and 2 are implemented separately and do not affect each other. May or may not be performed simultaneously. The sequence of the implementation of fig. 1 and 2 does not affect the implementation effect.

The graphic data visualization processing method for the power system can acquire a plurality of static data of each power building in the power system; determining the data type of each acquired static data; for each static data: selecting a data display 3D model matched with the data type of the static data from a plurality of preset data display 3D models; setting model parameters of the data display 3D model according to the model parameters of the 3D model of each power building; each data was presented as a 3D model display. According to the visualization processing method for the graphic data of the power system, the static data of the power building is integrated in one view for displaying, so that the static data of the power building is more visual and clear.

Optionally, in a specific embodiment, the method of the present invention is also applicable to dynamic data.

Optionally, environment visualization may be implemented by the method:

the virtual simulation of the electric power machine room is realized, and the result of 3D modeling needs to be consistent with the real environment, including the structure, the size, the interior decoration style and the like; the utility information display can be carried out on the information of each area or room of the machine room, and the whole environment can be viewed and browsed at various visual angles and angles; the building can be layered (transversely and longitudinally) and browsed, or a single room can be clicked to check specific internal conditions; the airflow distribution condition of the cold and hot channels of the modular machine room can be displayed in a 3D form, and a dynamic effect is realized.

Optionally, asset visualization may be implemented by the method:

the 3D modeling of all independent equipment and rack-mounted equipment is realized, wherein the 3D modeling comprises the independent equipment such as an air conditioner, a cabinet, a generator, a power distribution cabinet and a UPS, and the rack-mounted equipment such as a PC server, a switch and a router. 3D modeling needs to be consistent with the appearance of real equipment, and high identifiability is achieved; the asset information and the configuration information of the equipment can be clicked and checked; the port occupation condition of the equipment can be clicked and checked; the maintenance operation of the assets is supported, and the loading and unloading operation of the assets in a 3D scene can be realized; the functions of inquiring and searching assets are supported, fuzzy inquiry of any field can be carried out on the assets, or advanced inquiry can be carried out according to various combination conditions, and the equipment position in a 3D scene can be quickly positioned by clicking one piece of equipment information; the maintenance of the asset information supports batch import through a table, and the maintenance of single equipment information can also be carried out in an interface.

Optionally, the wiring visualization may be implemented by the method described above:

the virtual simulation display of the wiring conditions of the electric power pipeline, the air-conditioning pipeline and the water leakage line between floors is realized, and the wiring mode is basically consistent with that of a real environment; the pipeline can be highlighted, and the wall surface of the building is blurred to avoid blocking the pipeline; the wiring visualization of the machine room network is realized, and the network link condition is automatically drawn through an algorithm according to the jumper data of the equipment. Data of the jumper can be imported through a table, or integrated butt joint of external system data is supported; all external network connections of one device can be checked, including information of each port of each intermediate device; all jumper information of a network link can be checked, including information of each port of each intermediate device passing through; clicking on a piece of portal information, the system can automatically locate the relevant position in the 3D scene.

Optionally, the capacity visualization may be implemented by the method:

the capacity of the electric power machine room is visually managed, including machine position, U position, bearing, power consumption and the like; the U-bit space of the machine room can be visually displayed in a 3D mode, the cabinet spaces in different capacity intervals can be expressed by colors, the U-bit space capacity in a viewing range can be counted, and indexes such as total space, used space and utilization rate are displayed; the load bearing capacity of the machine room can be visually displayed in a 3D form, and the current load bearing size condition is expressed by the height of a column; the power capacity of the machine room can be visually displayed in a 3D mode, and the total rated power and the residual power capacity of the current equipment can be automatically counted according to the equipment deployment condition; the method can be used for carrying out automatic space search query in a specified room or cabinet group range according to set U-position, bearing and power consumption requirement indexes and accurately positioning in a 3D scene.

Optionally, the method can be used for realizing demonstration visualization:

the function of recording the animation is realized. Supporting the daily inspection work of the operation terminal; the function of circularly playing the default animation is supported, and the function can be used for propagandizing, displaying and introducing; and a viewpoint setting function is supported, any 3D scene can be selected as a viewpoint for storage, the viewpoint can be clicked to switch to the corresponding scene immediately, and the viewpoint name can be edited to achieve a demonstration effect.

Optionally, when the method of the present invention is applied to dynamic data, a monitoring tool may be accessed to perform real-time monitoring and alarming on the dynamic data.

Based on the power system graphic data visualization processing method, the invention also provides a power system graphic data visualization processing device. As shown in fig. 3, the apparatus includes: a first acquisition unit 301, a first determination unit 302, a first matching unit 303, a first setting unit 304, and a first display unit 305.

The first acquiring unit 301 is configured to acquire a plurality of static data of each power device in the power system.

The static data is a value that does not change for a long time, such as the size of the object, the color of the object, and the like, and is not easy to change along with the change of time.

Optionally, a plurality of static data of each power device in the power system is acquired in an acquisition manner.

It should be noted that the acquisition mode may include: the method comprises the steps of shooting a picture of the electric power equipment, measuring the size of the electric power equipment, determining the longitude, latitude and altitude of the electric power equipment according to GIS (geographic information system) data, and recording the model of the electric power equipment.

A first determining unit 302, configured to determine a data type of each acquired static data.

It should be noted that the data types of the static data at least include: the method comprises the following steps of measuring the size of the electric equipment, the longitude and latitude of the electric equipment, the altitude of the electric equipment, the model of the electric equipment, the color of the electric equipment, the equipment attribute of the electric equipment and the connection relationship among the electric equipment, wherein the equipment attribute of the electric equipment comprises the following steps: a primary device and a backup device.

A first matching unit 303, configured to, for each static data: and selecting a data presentation 3D model matched with the data type of the static data from a plurality of preset data presentation 3D models.

It should be noted that the preset data display 3D models are 3D models formed by importing views and performing 3D modeling and 3D rendering on the views.

The first setting unit 304 is configured to set model parameters of the data display 3D model according to the model parameters of the 3D model of each power device.

Optionally, in a specific embodiment, the model parameters include: the model color, first setting unit 304, includes: a color setting sub-unit for setting a color,

the color setting subunit is used for setting the model color of the data display 3D model to be a color with a preset contrast ratio with the model color of the 3D model of the power equipment;

the contrast of the color can highlight important data to be displayed.

Or,

the model color used for displaying the 3D model of the data is set to be the color of the same color system as the model color of the 3D model of the power equipment;

wherein, the colors of the same color system can enable the data display 3D model and the 3D model of the power equipment to be paired into a set.

Optionally, in a specific embodiment, the model parameters include: the model size, first setting unit 304, includes: a size-setting sub-unit for setting the size of the display unit,

the size setting subunit is used for setting the model size of the data display 3D model to be a size with a preset proportion to the model size of the 3D model of the power equipment;

the preset proportion is used for preventing the size of the data display 3D model from being too large or too small relative to the size of the 3D model of the power equipment, so that the display is not clear and attractive.

Optionally, in a specific embodiment, the model parameters include: the model position, first setting unit 304, includes: a position setting sub-unit for setting the position of the mobile phone,

the position setting subunit is used for setting the model position of the data display 3D model to be a position, the distance between the model position of the data display 3D model and the model position of the 3D model of the power equipment is smaller than a preset distance;

in order to make the person data presentation 3D model be data of the 3D model of the corresponding power device, the model position of the data presentation 3D model is set to be close to the model position, and cannot be separated too far.

A first display unit 305, configured to display each data presentation 3D model.

The above-mentioned power system graphic data visualization processing device, the device includes: the device comprises an acquisition unit, a determination unit, a matching unit, a setting unit and a display unit, wherein the first acquisition unit 301 is used for acquiring a plurality of static data of each power device in the power system; a first determining unit 302, configured to determine a data type of each acquired static data; a first matching unit 303, configured to, for each static data: selecting a data display 3D model matched with the data type of the static data from a plurality of preset data display 3D models; a first setting unit 304, configured to set model parameters of a data display 3D model according to model parameters of the 3D model of each power device; a first display unit 305, configured to display each data presentation 3D model. The graphic data visualization processing device for the power system integrates the static data of the power equipment in one view for display, so that the static data of the power equipment is more visual and clear.

Optionally, the apparatus further includes: the device comprises a second acquisition unit, a second determination unit, a second matching unit, a second setting unit and a second display unit.

And the second acquisition unit is used for acquiring a plurality of static data of each power building in the power system.

Optionally, a plurality of static data of each power building in the power system are acquired in an acquisition manner.

It should be noted that the acquisition mode may include: the method comprises the steps of shooting electric power building pictures, measuring the size of the electric power building, and determining the longitude, the latitude, the altitude and the like of the electric power building according to GIS (geographic information system) data.

And the second determining unit is used for determining the data type of each acquired static data.

It should be noted that the data types of the static data at least include: the size of the electric power building, the longitude and latitude of the electric power building, the altitude of the electric power building, the model of the electric power building and the color of the electric power building.

A second matching unit for, for each static data: and selecting a data presentation 3D model matched with the data type of the static data from a plurality of preset data presentation 3D models.

And the second setting unit is used for setting the model parameters of the data display 3D model according to the model parameters of the 3D model of each electric power building.

And the second display unit is used for displaying the data in a 3D model.

The above-mentioned power system graphic data visualization processing device, the device includes: the second acquisition unit is used for acquiring a plurality of static data of each electric power building in the electric power system; the second determining unit is used for determining the data type of each acquired static data; a second matching unit for, for each static data: selecting a data display 3D model matched with the data type of the static data from a plurality of preset data display 3D models; the second setting unit is used for setting model parameters of the data display 3D model according to the model parameters of the 3D model of each power building; and the second display unit is used for displaying the data in a 3D model. The graphic data visualization processing device for the power system integrates the static data of the power building into one view for display, so that the static data of the power building is more visual and clear.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, various modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims (9)

1. A visualization processing method for graphic data of a power system is characterized by comprising the following steps:

acquiring a plurality of static data of each power device in a power system;

determining the data type of each obtained static data;

for each static datum: selecting a data display 3D model matched with the data type of the static data from a plurality of preset data display 3D models;

according to model parameters of the 3D model of each power device, setting model parameters of the data display 3D model;

displaying each data presentation 3D model;

acquiring a plurality of static data of each electric power building in an electric power system;

determining the data type of each obtained static data;

for each static datum: selecting a data display 3D model matched with the data type of the static data from a plurality of preset data display 3D models;

setting model parameters of the data display 3D model according to the model parameters of the 3D model of each power building;

displaying each data presentation 3D model; the data display 3D model display result comprises wiring conditions of power pipelines, air-conditioning pipelines and water leakage lines among floors, pipelines which highlight the wall surface blurring of the building, and machine room network links which are automatically drawn through an algorithm according to jumper data of equipment;

the data presentation 3D model presentation results are used to visualize assets, including: checking asset information and configuration information of the equipment by clicking a display result; checking the port occupation condition of the equipment by clicking a display result; the maintenance operation of the assets is realized by carrying out batch import through the table or carrying out maintenance of single equipment information in the interface; the functions of inquiring and searching assets are realized by carrying out fuzzy of any field on the assets or carrying out advanced inquiry according to various combined conditions.

2. The method of claim 1, wherein the data types of the static data at least comprise:

the method comprises the following steps of measuring the size of the electric equipment, the longitude and latitude of the electric equipment, the altitude of the electric equipment, the model of the electric equipment, the color of the electric equipment, the equipment attribute of the electric equipment and the connection relationship among the electric equipment, wherein the equipment attribute of the electric equipment comprises the following steps: the device comprises a main device and a standby device.

3. The method of claim 1, wherein the model parameters comprise: the model color setting the model parameters of the data presentation 3D model according to the model parameters of the 3D model of each power device includes:

setting a model color of the data presentation 3D model to a color having a preset contrast with a model color of a 3D model of the power device;

or,

and setting the model color of the data display 3D model to be the color of the same color system as the model color of the 3D model of the power equipment.

4. The method of claim 1, wherein the model parameters comprise: a model size, wherein the setting of the model parameters of the data presentation 3D model according to the model parameters of the 3D model of each power device includes:

setting a model size of the data presentation 3D model to a size having a preset ratio to a model size of the 3D model of the power equipment.

5. The method of claim 1, wherein the model parameters comprise: the model position setting the model parameters of the data presentation 3D model according to the model parameters of the 3D model of each power device includes:

setting the model position of the data presentation 3D model as a position where the distance from the model position of the 3D model of the power equipment is less than a preset distance.

6. An electric power system graphic data visualization processing device, characterized in that the device comprises: a first obtaining unit, a first determining unit, a first matching unit, a first setting unit and a first display unit,

the first acquisition unit is used for acquiring a plurality of static data of each electric power device in the electric power system;

the first determining unit is configured to determine a data type of each acquired static data;

the first matching unit is configured to, for each static data: selecting a data display 3D model matched with the data type of the static data from a plurality of preset data display 3D models;

the first setting unit is used for setting the model parameters of the data display 3D model according to the model parameters of the 3D model of each power device;

the first display unit is used for displaying each data display 3D model;

the device, still include: the device comprises a second acquisition unit, a second determination unit, a second matching unit, a second setting unit and a second display unit;

the second acquisition unit is used for acquiring a plurality of static data of each electric power building in the electric power system;

the second determining unit is used for determining the data type of each acquired static data;

the second matching unit is configured to, for each static data: selecting a data display 3D model matched with the data type of the static data from a plurality of preset data display 3D models;

the second setting unit is used for setting model parameters of the data display 3D model according to the model parameters of the 3D model of each power building;

the second display unit is used for displaying each data in a 3D model; the data display 3D model display result comprises wiring conditions of power pipelines, air-conditioning pipelines and water leakage lines among floors, pipelines which highlight the wall surface blurring of the building, and machine room network links which are automatically drawn through an algorithm according to jumper data of equipment;

the second display unit is also used for checking the asset information and the configuration information of the equipment by clicking the display result; checking the port occupation condition of the equipment by clicking the display result; the maintenance operation of the assets is realized by carrying out batch import through the table or carrying out maintenance of single equipment information in the interface; the functions of inquiring and searching assets are realized by carrying out fuzzy of any field on the assets or carrying out advanced inquiry according to various combined conditions.

7. The apparatus of claim 6, wherein the data types of the static data at least comprise:

the method comprises the following steps of measuring the size of the electric equipment, the longitude and latitude of the electric equipment, the altitude of the electric equipment, the model of the electric equipment, the color of the electric equipment, the equipment attribute of the electric equipment and the connection relationship among the electric equipment, wherein the equipment attribute of the electric equipment comprises the following steps: the device comprises a main device and a standby device.

8. The apparatus of claim 6, wherein the model parameters comprise: a model color, the first setting unit including: a color-setting sub-unit for setting a color,

the color setting subunit is configured to set a model color of the data presentation 3D model to a color having a preset contrast with a model color of the 3D model of the power device;

or,

and the model color used for displaying the data of the 3D model is set to be the color of the same color system as the model color of the 3D model of the power equipment.

9. The apparatus of claim 6, wherein the model parameters comprise: a model size, the first setting unit including: a size-setting sub-unit for setting the size of the display unit,

the size setting subunit is configured to set a model size of the data presentation 3D model to a size that has a preset ratio to a model size of the 3D model of the power device.

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